Pius Krütli: Catalogue data in Autumn Semester 2018

Name Dr. Pius Krütli
Name variantsPius Krütli
Pius Kruetli
Pius Krutli
Dep. Umweltsystemwissenschaften
ETH Zürich, CHN K 78
Universitätstrasse 16
8092 Zürich
Telephone+41 44 632 63 24
Fax+41 44 632 10 29
DepartmentEnvironmental Systems Science

701-0007-00LTackling Environmental Problems I Restricted registration - show details
Only for Environmental Sciences BSc.
5 credits4GC. E. Pohl, P. Krütli, B. B. Pearce
AbstractEach year in the case study we analyse a different problem from the field of sustainable development and develop solutions to it.
ObjectiveStudents are able:
- to compile a case study dossier for a given topic. The dossier presents (a) the state of knowledge and (b) the need for further knowledge and action.
- to integrate knowledge of diverse perspectives in a qualitative systems model, to identify problems within the system and to suggest possible solutions from a specific stakeholder's perspective.
- to make an inquiry on a given subject, structure the results, interpret the results in relation to the research question, write a report and present the results.
- name the different roles within a group, explain the role(s) they are suited for, self-organise in groups, identify problems of collaboration and constructively address the problems.
ContentIn the first semester the students compile what is known about the problem, its causes and possible solutions. Each group of students makes an inquiry to a given part of the overall problem. The inquiry includes a thematic as well as stakeholder analysis.

During synthesis week, which takes place during semester break, the results of the different part inquiries are integrated in a qualitative system model. The students identify specific problems within the system and develop solutions.

Most of the time students work independently in groups. Tutors support the students in key steps. Introductions are given for:
- The overall topic of the case study,
- Inquiry, scientific writing and managing references (by experts of ETH library),
- Role behaviour and collaboration in groups,
- Preparing reports, posters and presentations,
- Qualitative system modelling (Systaim),
- Developing solutions (design thinking, Checklands' soft systems methodology).
Lecture notesStudents will compile the case study dossier.
LiteratureLiterature on methods will be provided during the case study course.
701-0009-00LTackling Environmental Problems III Restricted registration - show details 3 credits4UC. E. Pohl, P. Krütli, B. B. Pearce
AbstractStudents put the measures they developed during the courses Tackling Environmental Problems I & II into practice, in collaboration with partners from civil society, the public and the private sector.
ObjectiveStudents are able to put the measures they developed to address environmental problems into practice.
ContentIn Tackling Environmental Problems I & II, students analyze an environmental topic, identify a specific problem within it, develop measures to address the problem and test the measures for feasibility by presenting them to concerned stakeholders. Some of the students develop their measures to such a degree, that the measures could actually be implemented. Tackling Environmental Problems III provides the opportunity to do so. Together with partners from civil society, the private and the public sector, students agree on the implementation plan, the financial and legal aspects and put the measure into practice.
Prerequisites / NoticeTackling Environmental Problems I & II is a prerequisite for taking the course Tackling Environmental Problems III.
701-1503-00LThe Transdisciplinarity Lab (TdLab) Winter School 'Science Meets Practice4 credits9AB. B. Pearce, P. Fry, P. Krütli, C. E. Pohl
AbstractThere is an increasing need for scientists to understand and engage with people and institutions outside the scientific community. The TdLab Winter School is aimed at helping PhD students and Postdocs from a wide range of disciplines and institutional backgrounds to uncover the societal relevance of their own science projects and to define and clarify the societal relevance of science, in general.
Objective1. Participants acquire knowledge, tools and hands-on experience to work with stakeholders to frame a complex, real- world problem.
2. Participants will gain practical skills to work in groups effectively across disciplinary and cultural boundaries.
3. Participants learn to reflect on their role as scientists in society.
ContentThe TdLab Winter School provides a conceptual and methodological foundation on the challenges of knowledge exchange and dialogue between science and practice. The course will provide space and methods for the participants to reflect on their own approach to science and how it could be utilized effectively for problem solving in the real world. Participants take the concepts and methods into the real world and test them through individual and small-group interactions with stakeholders. Participants will learn to identify and become perceptive of diverse world-views, expectations and needs of stakeholders. To this end, they will be expected to organize workshops and events within the community. Together, participants and stakeholders work towards framing complex problems and possible solutions. This year, the topic (which has been identified by the community itself as being important) is community amalgamation and spatial planning in Swiss villages. No prior experience or knowledge of the topic is required for participation.

The TdLab Winter School will take place in Propstei Wislikofen on 22-25 and 28-31 January 2019. Accommodation is provided.
Lecture notesCourse materials (e.g. slides, articles, toolboxes) are provided for preparatory reading and during the course (in Moodle).
LiteratureCollection of key literature in online reader in Moodle.
Prerequisites / NoticeParticipants (PhD students and postdocs from any field) are required to apply online providing key information about their interest and project - details and application form can be found here: http://www.tdlab.usys.ethz.ch/education/winterschool.html

The Winter School runs with a maximum of 25 participants.
The Winter School 2019 will be delivered by lecturers and coaches from ETH Zurich and experienced practitioners:
- BinBin Pearce (USYS TdLab, ETH Zurich)
- Pius Krütli (USYS TdLab, ETH Zurich)
- Christian Pohl (USYS TdLab, ETH Zürich)
- Patricia Fry (Wissensmanagement Umwelt GmbH)

The total time requirement is in the range of 120 hours, equivalent to 4 ECTS. The learning control focuses on 1) active participation, engagement in case examples, and reflection against the background of own projects and experiences, 2) active team involvement in the design and organization of stakeholder meetings. The course is successfully completed by pass (pass/no pass, thus no marks). The language of the Winter School is English. Stakeholder meetings will be in the local language (Swiss German) and translation into English is provided.

There is a participation fee of 400 CHF for the course, which is a contribution to the costs for the two blocks at the seminar venue Propstei Wislikofen, organizational support as well as material for the stakeholder meetings. Travel expenses to the venue are to be borne by the participants.
701-1543-00LTransdisciplinary Methods and Applications3 credits2GP. Krütli, M. Stauffacher
AbstractThe course deals with transdisciplinary (td) methods, concepts and their applications in the context of case studies and problem-oriented research projects. Td methods are used in research at the science-society interface as well as when collaborating across scientific disciplines. Students learn to apply methods within a functional framework. The format of the course is seminar-like, interactive.
ObjectiveAt the end of the course, students:
- know purpose, function and algorithm of a selected number of transdisciplinary methods
- understand the methods' functional application in case studies and other problem-oriented research projects
- are able to reflect on potential, limits and necessity of transdisciplinary methods
ContentThe lecture is structured as follows:
- overview of concepts and methods of inter-/transdisciplinary integration of knowledge, values and interests (ca. 20%)
- analysis of a selected number of transdisciplinary methods focusing problem framing, problem analysis, and impact (ca. 50%)
- practical application of the methods in a broader project setting (ca. 30%)
Lecture notesHandouts are provided
LiteratureSelected scientific articles and book-chapters
Prerequisites / NoticeThe course is recommended for students considering to enroll in the transdisciplinary case study (tdCS) in the Spring semester (701-1502-00L)
701-1551-00LSustainability Assessment3 credits2GP. Krütli, C. E. Pohl
AbstractThe course deals with the concepts and methodologies for the analysis and assessment of sustainable development. A special focus is given to the social dimension and to social justice as a guiding principle of sustainability. The format of the course is seminar-like, interactive.
ObjectiveAt the end of the course, students:
- know core concepts of sustainable development, the concept of social justice in the context of sustainability, a selection of methodologies for the assessment of sustainable development
- have a deepened understanding of the challenges of trade-offs between the different goals of sustainable development and their respective impacts on individual and societal decision-making
ContentThe course is structured as follows:
- overview of rationale, objectives, concepts and origins of sustainable development (ca. 15%)
- overview of the concept of social justice as guiding principle of the social dimension of sustainability (ca. 25%)
- analysis of a selection of methodologies to assess sustainable development in a variety of contexts (60%)
Lecture notesHandouts are provided
LiteratureSelected scientific articles and book-chapters
Prerequisites / NoticeStudents of this course may also be interested in the course transdisciplinary case study (tdCS) in the Spring semester (701-1502-00L)